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High performance, optimized chip-scale packaging for millimetre wave and THz integrated circuits. This project aims to revolutionise electronic packaging by depositing a thin, protective layer of diamond on top of high-performance, millimetre-wave and THz integrated circuits. Leveraging existing technology for removing heat from high-powered optical electronics, the project aims to deliver a miniaturised packaged chip, protected from the environment and ready for mounting in a system, without se ....High performance, optimized chip-scale packaging for millimetre wave and THz integrated circuits. This project aims to revolutionise electronic packaging by depositing a thin, protective layer of diamond on top of high-performance, millimetre-wave and THz integrated circuits. Leveraging existing technology for removing heat from high-powered optical electronics, the project aims to deliver a miniaturised packaged chip, protected from the environment and ready for mounting in a system, without seriously degrading the circuit's performance as occurs in current packaging technologies. The project aims to enable cheaper and more energy-efficient applications as wide ranging as wireless HD video, multi-gigabit telecommunications, and black-body passive imaging technologies for security, defence, medical and agricultural applications.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100413
Funder
Australian Research Council
Funding Amount
$384,000.00
Summary
Hybrid nanowire-nanoantenna infrared photodetectors. This project aims to demonstrate room temperature hybrid nanowire-nanoantenna infrared photodetectors by integrating plasmonic nanoantennas on semiconductor nanowire arrays. It is expected that such novel device architectures will not only bring enhanced performance in responsivity, detectivity, and photoresponse bandwidth, but also additional functionalities such as selective wavelength and tunable polarisation, which may significantly outper ....Hybrid nanowire-nanoantenna infrared photodetectors. This project aims to demonstrate room temperature hybrid nanowire-nanoantenna infrared photodetectors by integrating plasmonic nanoantennas on semiconductor nanowire arrays. It is expected that such novel device architectures will not only bring enhanced performance in responsivity, detectivity, and photoresponse bandwidth, but also additional functionalities such as selective wavelength and tunable polarisation, which may significantly outperform current infrared technology. The outcomes will provide a new device platform for next-generation, large-scale, reduced-cost, high-performance imaging systems in self-driving navigation, object identification, spectroscopy, and other high-end defence and civilian applications.Read moreRead less